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Title GEM detector performance with innovative micro-TPC readout in high magnetic field
Author(s) Garzia, I (INFN, Ferrara ; Ferrara U.) ; Alexeev, M (INFN, Turin) ; Amoroso, A (INFN, Turin ; Turin U.) ; Baldini Ferroli, R (Frascati ; Beijing, Inst. High Energy Phys.) ; Bertani, M (Frascati) ; Bettoni, D (INFN, Ferrara) ; Bianchi, F (INFN, Turin ; Turin U.) ; Calcaterra, A (Frascati) ; Canale, N (Ferrara U.) ; Capodiferro, M (Frascati ; INFN, Rome) ; Cassariti, V (INFN, Ferrara) ; Cerioni, S (Frascati) ; Chai, J Y (INFN, Turin ; Beijing, Inst. High Energy Phys. ; Turin Polytechnic) ; Chiozzi, S (INFN, Ferrara) ; Cibinetto, G (INFN, Ferrara) ; Cossio, F (INFN, Turin ; Turin Polytechnic) ; Cotta Ramusino, A (INFN, Ferrara) ; De Mori, F (INFN, Turin ; Turin U.) ; Destefanis, M (INFN, Turin ; Turin U.) ; Dong, J (Frascati) ; Evangelisti, F (INFN, Ferrara) ; Farinelli, R (INFN, Ferrara ; Ferrara U.) ; Fava, L (INFN, Turin) ; Felici, G (Frascati) ; Fioravanti, E (INFN, Ferrara) ; Gatta, M (Frascati) ; Greco, M (INFN, Turin ; Turin U.) ; Lavezzi, L (INFN, Turin ; Beijing, Inst. High Energy Phys.) ; Leng, C Y (INFN, Turin ; Beijing, Inst. High Energy Phys. ; Turin Polytechnic) ; Li, H (INFN, Turin ; Beijing, Inst. High Energy Phys.) ; Maggiora, M (INFN, Turin ; Turin U.) ; Malaguti, R (INFN, Ferrara) ; Marcello, S (INFN, Turin ; Turin U.) ; Melchiorri, M (INFN, Ferrara) ; Mezzadri, G (INFN, Ferrara ; Ferrara U.) ; Mignone, M (INFN, Turin) ; Morello, G (Frascati) ; Pacetti, S (INFN, Perugia ; Perugia U.) ; Patteri, P (Frascati) ; Pellegrino, J (INFN, Turin ; Turin U.) ; Pelosi, A (Frascati ; INFN, Rome) ; Rivetti, A (INFN, Turin) ; Rolo, M D (INFN, Turin) ; Savrié, M (INFN, Ferrara ; Ferrara U.) ; Scodeggio, M (INFN, Ferrara ; Ferrara U.) ; Soldani, E (Frascati) ; Sosio, S (INFN, Turin ; Turin U.) ; Spataro, S (INFN, Turin ; Turin U.) ; Tskhadadze, E (Frascati ; Dubna, JINR) ; Verma, S (Ferrara U.) ; Wheadon, R (INFN, Turin) ; Yan, L (INFN, Turin)
Publication 2018
Number of pages 5
In: EPJ Web Conf. 170 (2018) 01009
In: INTERNATIONAL CONFERENCE on ADVANCEMENTS in NUCLEAR INSTRUMENTATION MEASUREMENT METHODS and their APPLICATIONS, Liege, Belgique, 19 - 23 Jun 2017, pp.01009
DOI 10.1051/epjconf/201817001009
Subject category Detectors and Experimental Techniques
Accelerator/Facility, Experiment CERN SPS
Abstract Gas detector development is one of the pillars of the research in fundamental physics. Since several years, a new concept of detectors, called Micro Pattern Gas Detector (MPGD), allowed to overcome several problems related to other types of commonly used detectors, like drift chamber and micro strips detectors, reducing the rate of discharges and providing better radiation tolerance. Among the most used MPGDs are the Gas Electron Multipliers (GEMs). Invented by Sauli in 1997, nowadays GEMs have become an important reality for particle detectors in high energy physics. Commonly deployed as fast timing detectors and triggers, their fast response, high rate capability and high radiation hardness make them also suitable as tracking detectors. The readout scheme is one of the most important features in tracking technology. Analog readout based on the calculation of the center of gravity technique allows to overcome the limit imposed by digital pads, whose spatial resolution is limited by the pitch dimensions. However, the presence of high external magnetic fields can distort the electronic cloud and affect the performance. The development of the micro-TPC reconstruction method brings GEM detectors into a new prospective, improving significantly the spatial resolution in presence of high magnetic fields. This innovative technique allows to reconstruct the 3-dimensional particle position, as Time Projection Chamber, but within a drift gap of a few millimeters. In these report, the charge centroid and micro-TPC methods are described in details. We discuss the results of several test beams performed with planar chambers in magnetic field. These results are one of the first developments of micro-TPC technique for GEM detectors, which allows to reach unprecedented performance in a high magnetic field of 1 T.
Copyright/License CC-BY-4.0

Corresponding record in: Inspire


 Record created 2019-05-29, last modified 2019-09-16


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